anticyclonic storm

简明释义

反气旋风暴

英英释义

例句

1.Farmers rely on forecasts of anticyclonic storms 反气旋风暴 to plan their irrigation schedules.

农民依赖于对反气旋风暴 反气旋风暴的预测来计划他们的灌溉时间表。

2.The meteorologist predicted an anticyclonic storm 反气旋风暴 moving towards the coast this weekend.

气象学家预测一个反气旋风暴 反气旋风暴将在这个周末向海岸移动。

3.During an anticyclonic storm 反气旋风暴, clear skies and high pressure often lead to calm weather conditions.

在一个反气旋风暴 反气旋风暴期间，晴朗的天空和高气压通常会导致平静的天气条件。

4.The anticyclonic storm 反气旋风暴 brought unusually warm temperatures for this time of year.

这个时间段的反气旋风暴 反气旋风暴带来了异常温暖的气温。

5.Travelers should be aware that an anticyclonic storm 反气旋风暴 can cause significant changes in weather patterns.

旅行者应该意识到，一个反气旋风暴 反气旋风暴可能会导致天气模式的显著变化。

作文

Understanding weather patterns is crucial for predicting climate behavior and preparing for natural disasters. One of the key concepts in meteorology is the formation of storms, which can be categorized into different types based on their characteristics and the atmospheric conditions that create them. Among these, the term anticyclonic storm refers to a specific type of weather system that is often associated with high-pressure areas. In this essay, we will explore the nature of anticyclonic storms, their formation, and their impact on the environment.An anticyclonic storm is characterized by descending air that leads to clearer skies and stable weather conditions. Unlike cyclonic storms, which are associated with low-pressure systems and turbulent weather, anticyclonic storms bring about calmness and tranquility. These storms typically form in regions where the atmospheric pressure is higher than that of the surrounding areas. As a result, air flows outward from the center of the high-pressure zone, creating a stable environment that suppresses cloud formation and precipitation.The formation of an anticyclonic storm often occurs due to various meteorological factors, including temperature differences, geographical features, and seasonal changes. For instance, during the summer months, intense sunlight heats the ground, causing the air above it to rise. This rising air can create a low-pressure area, while cooler air from surrounding regions moves in to fill the gap, leading to the development of an anticyclonic storm. Furthermore, the Coriolis effect, caused by the Earth's rotation, influences wind patterns and contributes to the stability of these high-pressure systems.One of the significant impacts of anticyclonic storms is their role in influencing local climates. Regions affected by these storms often experience dry and sunny weather, making them ideal for agriculture and outdoor activities. However, prolonged periods of anticyclonic storms can lead to drought conditions, as the lack of precipitation can deplete soil moisture and water resources. This situation poses challenges for farmers and communities that rely on consistent rainfall for their livelihoods.Moreover, anticyclonic storms can also affect air quality. The stable atmospheric conditions associated with these storms can trap pollutants close to the ground, leading to smog formation and respiratory issues for residents in urban areas. Therefore, understanding the dynamics of anticyclonic storms is essential for public health officials and environmental scientists who monitor air quality and implement measures to mitigate pollution.In conclusion, anticyclonic storms play a vital role in shaping weather patterns and influencing environmental conditions. While they are often associated with pleasant weather, their effects can be both beneficial and detrimental, depending on the duration and intensity of the high-pressure system. By studying anticyclonic storms and their characteristics, meteorologists can improve weather forecasting and help communities prepare for the potential impacts of these atmospheric phenomena. Understanding these storms not only enhances our knowledge of meteorology but also equips us to better navigate the challenges posed by changing climate patterns.

了解天气模式对于预测气候行为和为自然灾害做好准备至关重要。在气象学中，风暴的形成是一个关键概念，这些风暴可以根据其特征和导致它们形成的大气条件进行分类。在这些风暴中，术语反气旋风暴指的是一种特定类型的天气系统，通常与高压区域相关。在本文中，我们将探讨反气旋风暴的特性、形成过程及其对环境的影响。反气旋风暴的特点是下沉的空气，这导致天空更加清澈和稳定的天气条件。与与低压系统和动荡天气相关的气旋风暴不同，反气旋风暴带来的是平静和宁静。这些风暴通常在大气压力高于周围地区时形成。因此，空气从高压区的中心向外流动，创造出抑制云层形成和降水的稳定环境。反气旋风暴的形成通常由于各种气象因素，包括温度差异、地理特征和季节变化。例如，在夏季，强烈的阳光加热地面，导致其上方的空气上升。这种上升的空气可以形成一个低压区域，而来自周围地区的较冷空气则会填补这个空缺，从而导致反气旋风暴的发展。此外，由地球自转引起的科里奥利效应也会影响风的模式，并有助于这些高压系统的稳定性。反气旋风暴的一个重要影响是它们在影响地方气候中的作用。受这些风暴影响的地区通常经历干燥和阳光明媚的天气，使其成为农业和户外活动的理想场所。然而，长期的反气旋风暴可能导致干旱条件，因为缺乏降水会耗尽土壤水分和水资源。这种情况对依赖持续降雨维持生计的农民和社区构成挑战。此外，反气旋风暴还可能影响空气质量。这些风暴所关联的稳定大气条件会将污染物困在接近地面的地方，导致雾霾形成和城市居民的呼吸问题。因此，了解反气旋风暴的动态对于监测空气质量并实施减轻污染措施的公共卫生官员和环境科学家来说至关重要。总之，反气旋风暴在塑造天气模式和影响环境条件方面发挥着重要作用。虽然它们通常与宜人的天气相关，但其影响可能是有益的，也可能是有害的，这取决于高压系统的持续时间和强度。通过研究反气旋风暴及其特征，气象学家可以改善天气预报，并帮助社区为这些大气现象可能产生的影响做好准备。理解这些风暴不仅增强了我们对气象学的认识，还使我们能够更好地应对气候模式变化带来的挑战。